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CN-224201944-U - Ice making system, ice making device and water purifier

CN224201944UCN 224201944 UCN224201944 UCN 224201944UCN-224201944-U

Abstract

The utility model discloses an ice making system, an ice making device and a water purifier, and relates to the technical field of ice making, wherein the ice making system comprises a water supply waterway; the ice making system comprises an ice making box, a heat exchange device, a first water storage unit, a heating unit and an ice making system, wherein the ice making box comprises a first runner and a second runner, the first runner and the second runner can enable liquid to conduct heat exchange, an inlet of the first runner can be communicated with an outlet of a water supply water channel, an outlet of the first runner can be communicated with an inlet of the first water storage unit, an inlet of the second runner can be communicated with an outlet of the first water storage unit, an outlet of the second runner can be communicated with an inlet of the ice making box, the ice making system is provided with an ice making mode, cold water output by the water supply water channel flows into the first water storage unit through the first runner in the ice making mode, and hot water in the first water storage unit flows out and enters the ice making box after being cooled through the second runner. The utility model can solve the problem that ice cubes with high transparency can not be prepared on the premise of not obviously increasing energy consumption.

Inventors

  • YIN CAIXIA
  • LI JINGLONG
  • CHEN XIAOBO

Assignees

  • 艾欧史密斯(中国)环境电器有限公司
  • 艾欧史密斯(中国)热水器有限公司

Dates

Publication Date
20260505
Application Date
20250530

Claims (20)

  1. 1. An ice-making system, the ice-making system comprising: A water supply waterway; a first water storage unit and a heating unit for heating water in the first water storage unit; an ice making module including an ice making box; The heat exchange device is provided with a first flow passage and a second flow passage which can enable liquid to exchange heat, the inlet of the first flow passage can be communicated with the outlet of the water supply waterway, the outlet of the first flow passage can be communicated with the inlet of the first water storage unit, the inlet of the second flow passage can be communicated with the outlet of the first water storage unit, and the outlet of the second flow passage can be communicated with the inlet of the ice making box; The ice making system is provided with an ice making mode, in the ice making mode, cold water output by the water supply waterway flows into the first water storage unit through the first flow channel, and hot water in the first water storage unit flows out and enters the ice making box after being cooled through the second flow channel.
  2. 2. The ice making system of claim 1, wherein the ice making module further comprises an ice storage bucket for receiving ice cubes made from the ice making housing and a first refrigeration unit for cooling water within the ice making housing to effect ice making.
  3. 3. The ice making system of claim 2, wherein the ice making housing is disposed above the ice bank.
  4. 4. The ice making system according to claim 2, wherein the ice making module further comprises a driving device, an output end of the driving device is connected with the ice making box, the ice making box is arranged above the ice storage barrel in a turnover manner, and under the action of the driving device, the ice making box can be driven to turn over to enable ice cubes to fall into the ice storage barrel.
  5. 5. The ice-making system of claim 4, wherein the driving means is a driving motor, and an output shaft of the driving motor is in driving connection with one end of the ice-making housing.
  6. 6. The ice making system of claim 2, wherein a detachable ice bank is disposed within the ice bank for receiving at least a portion of ice cubes from the ice bank being flipped over.
  7. 7. The ice making system of claim 6, wherein an opening is provided at a side of the ice bank, and the ice bank is capable of being moved out of the interior of the ice bank from the opening.
  8. 8. The ice-making system of claim 2, wherein the first refrigeration unit includes a first evaporator disposed within the ice-making housing, the first evaporator cooling water within the ice-making housing to effect ice-making.
  9. 9. The ice-making system of claim 8, wherein the first evaporator includes an evaporation tube and a plurality of columns disposed on the evaporation tube and spaced apart along an axial direction of the evaporation tube, the columns being for immersing in water within the ice-making housing to cool the water.
  10. 10. The ice-making system of claim 8, wherein the ice-making system includes a second water storage unit and a second refrigeration unit for refrigerating water in the second water storage unit, the outlet of the ice-making housing being in communication with the second water storage unit.
  11. 11. The ice-making system of claim 10, wherein the second refrigeration unit includes a second evaporator disposed on the second water storage unit to enable cooling of water stored in the second water storage unit, or wherein the second refrigeration unit includes a second evaporator disposed within the second water storage unit.
  12. 12. The ice-making system according to claim 1, wherein the ice-making system has a sterilization mode in which the water supply path is in communication with the first water storage unit so that hot water in the first water storage unit flows through the ice-making housing to sterilize the ice-making housing.
  13. 13. The ice making system of claim 12, wherein said water supply path is communicable with said first water storage unit through a pipe switching unit, said pipe switching unit putting said water supply path in communication with said first water storage unit and said water supply path in disconnection with said first flow path in said sterilization mode.
  14. 14. An ice making system according to claim 1, wherein the ice making system includes a cool white open output waterway which is communicable with an outlet of the second flow passage.
  15. 15. The ice-making system of claim 14, wherein the outlet of the water supply path is respectively communicated with the inlet of the first flow path and the first water storage unit through an adjusting unit for adjusting the ratio of the water outputted from the water supply path to the inlet of the first flow path and the first water storage unit.
  16. 16. The ice-making system of claim 1, wherein the ice-making system includes a water pump, an inlet of the water pump being in communication with an outlet of the first water storage unit, an outlet of the water pump being in communication with an inlet of the second flow passage, the ice-making system having a sterilization mode in which the water pump is in an on state to allow hot water in the first water storage unit to flow through the ice-making housing to sterilize the ice-making housing.
  17. 17. The ice making system of claim 16, wherein said ice making system includes a hot water output waterway, said hot water output waterway being in communication with said first water storage unit via said water pump.
  18. 18. An ice-making device, characterized in that it comprises an ice-making system according to any one of claims 1 to 17.
  19. 19. A water purifier, comprising: a housing; An ice making system according to any one of claims 1 to 17; And the inlet of the water supply waterway is communicated with the outlet of the water supply unit.
  20. 20. The water purifier of claim 19, wherein the purified water supply unit comprises a fine filter cartridge.

Description

Ice making system, ice making device and water purifier Technical Field The utility model relates to the technical field of ice making, in particular to an ice making system, an ice making device and a water purifier. Background In the existing ice making system, the filtered normal-temperature water is mostly adopted for making ice, so that the ice making speed can be effectively improved. However, the low-temperature ice-making is easy to dissolve in the air such as nitrogen, oxygen and the like to form tiny bubbles in the storage and transportation processes of the low-temperature ice-making. When making ice, the bubbles are frozen in the ice cubes to form a white flocculent or cloud-like structure, which affects visual effects. Ice blushing is easily mistaken by users that the water quality is not clean, especially in commercial scenarios (e.g., drink shops, bars), and may reduce consumer confidence in product quality. At present, some ice making systems heat the input normal-temperature water to reduce the air content in the water, then input the heated hot water into an ice making box for making ice, although this approach can increase the transparency of ice cubes made later, it can greatly increase the energy consumption of the refrigeration system in the ice making system and can reduce the speed of ice making. Therefore, a solution for realizing quality upgrading of ice cubes without significantly increasing energy consumption is needed to pointedly solve the transparency defect of the existing ice making system, and is especially suitable for consumer scenes or people sensitive to appearance and quality. Disclosure of utility model In order to overcome the above-mentioned drawbacks of the prior art, the technical problem to be solved by the embodiments of the present utility model is to provide an ice making system, an ice making device and a water purifier, which can solve the problem that ice cubes with high transparency cannot be made without significantly increasing energy consumption. The specific technical scheme of the embodiment of the utility model is as follows: an ice making system, the ice making system comprising: A water supply waterway; a first water storage unit and a heating unit for heating water in the first water storage unit; an ice making module including an ice making box; The heat exchange device is provided with a first flow passage and a second flow passage which can enable liquid to exchange heat, the inlet of the first flow passage can be communicated with the outlet of the water supply waterway, the outlet of the first flow passage can be communicated with the inlet of the first water storage unit, the inlet of the second flow passage can be communicated with the outlet of the first water storage unit, and the outlet of the second flow passage can be communicated with the inlet of the ice making box; The ice making system is provided with an ice making mode, in the ice making mode, cold water output by the water supply waterway flows into the first water storage unit through the first flow channel, and hot water in the first water storage unit flows out and enters the ice making box after being cooled through the second flow channel. Preferably, the ice making module further comprises an ice storage barrel and a first refrigerating unit, wherein the first refrigerating unit cools water in the ice making box to realize ice making, and the ice storage barrel is used for receiving ice cubes made by the ice making box. Preferably, the ice making housing is disposed above the ice bank. Preferably, the ice making module further comprises a driving device, the output end of the driving device is connected with the ice making box, the ice making box is arranged above the ice storage barrel in a turnover mode, and under the action of the driving device, the ice making box can be driven to turn over so that ice cubes fall into the ice storage barrel. Preferably, the driving device is a driving motor, and an output shaft of the driving motor is in transmission connection with one end of the ice making box. Preferably, a detachable ice bank is provided in the ice bank for receiving at least part of ice cubes falling upside down from the ice bank. Preferably, an opening is opened at a side of the ice bank, and the ice bank can be moved out of the inside of the ice bank from the opening. Preferably, the first refrigeration unit includes a first evaporator provided in the ice making housing, and the first evaporator cools water in the ice making housing to make ice. Preferably, the first evaporator comprises an evaporation tube and a plurality of columns arranged on the evaporation tube at intervals along the axial direction of the evaporation tube, and the columns are used for being soaked in water in the ice making box to cool the water. Preferably, the ice making system includes a second water storage unit and a second refrigerating unit for refrigerating water in the second wate